Method of making diamond headed screw blanks for double threaded screws and header dies for use therewith



Aprll 17, 1945. w. A. DE VELLIER 2,373,948

' METHOD OF MAKING DIAMOND HEADED SCREW BLANKS FOR DOUBLE THREADED scREws AND HEADER DIES FOR USE THEREWITH Filed March 22, 1945 3 Sheets-Sheet 1 1 19*. 1 7 IIO I20 A. lna-enta l", m'liiamflfldjlier v liz tvrney April 17, 1945. w A. DE'\OIELLIER METHOD OF MAKING DIAMOND HEADED SCREW BLANKS FOR DOUBLE THREADED SCREWS AND HEADER DIES FOR USE THEREWITH Filed March 22, 1943 3 Sheets-Sheet 2 we us A 1 M hi '70 we o 99 mo "0 0 '99 I00 u 8 w my! D 4 W W Fight? x Fz'g If x 112 yen for M'Ylz'amflficiljzbr 59 m a Apll] 17, 1945. w 5 VELLIER 2,373,948

METHOD OF MAKING DIAMOND HEADED SCREW BLANKS FOR DOUBLE THREADED SCREWS AND HEADER DIES FOR USE'THEREWITH Filed March 22, 1945 3 Sheets-Sheet 3 Invefl of 7497110122 fl fie V1110!- Patented Apr. 17, 1945 METHOD OF MAKING DIAMOND HEADED SCREW BLANKS FOR DOUBLE THREADED SCREWS THEREWITH AND HEADER DIES FOR USE William A. De Vellier, New York, N. Y., assi'gnor to New Process Screw Corporation, Waterville, I Conn., a corporation of Delaware Application March 22, 1943, Serial No. 480,018

7 Claims.

My invention relates to improvements in rolled double threaded screws, screw blanks suitable for rolling double threads thereon and method and apparatus for their manufacture, and is particularly adapted for double threaded screws. This application is a continuation in part. application of my application on Screw and its method of manufacture, Ser. No. 405,678, filed August 6, 1941, issued as Patent 2,314,391, March 23, 1943, and also a continuation in part of my application for Screw, Ser. No. 398,543, filed June 18, 1941, issued June 22, 1943, as Patent 2,322,509.

An object of my invention is to provide continuous double threads extending the desired distance along the shank and along thepointed portion of the shank, each thread tapering outwardly to a sharp continuous spiral cutting edge, sharper than any edge which can be provided on a cut screw and simulative of a razor edge.

Great difficulty has hitherto been experienced in rolling threads down to the tip of the pointed portion of the screw shank. In the prior art,

. most shanks have been pointed in a pointing machine which gives a straight conical pointed portion, specifically removing the metal for this purpose with the thought of providing a shank having a conical pointed portion. Due to the fact that so much metal has been removed, I

have found that there is not sufficient metal left from which threads extending to the tip of the pointed portion of the shank may be formed. I have discovered, however, that if a length of stock be pressure shaped to form the head of a screw blank on one end and an irregular shaped pointed portion having excess metal thereon than required for a, conical pointed portion on the opposite end thereof and the screw blanks subjected to any suitable type of rolling operation, continuous double threads may be formed on the pointed portion of the shank from said excess metal displaced from said pointed end portion to form continuous double threads extending at least to the tip of said pointed portion. While it has been diflicult to roll single threads on a screw extending to the tip of the pointed portion of the shank, it has been extremely ditficult when rolling double threads to roll them to the tip of the pointed portion of the shank as more metal is required to provide the material for two threads than for one. I believe I am the first, therefore, i

of the pointed portion of the shank. In certain,

respects this application is a continuation in part and method and apparatus for making same,

S. N. 290,621, filed August 17, 1939, issued as Patent 2,314,390, March 23, 1943. In the embodiments shown in this application, however, I axially force the metal to form the point on the ends .of the threads down from the mass of excess metal formed on the pointed portion of the shank; whereas in the method shown in said application, the metal is never axially extruded but always radially extruded.

in sharp incising means of a. desired predetermined shape projecting substantially axially downwardly of said pointed portion of the shank, the amount of excess metal originally provided on said pointed portion depending on the predetermined shape desired in the sharp substantially axially downwardly projecting incising means formed by the end of each respective thread.

A further object of my invention is to produce a screw blank capable of having threads ,rolled thereon to produce the various types of screws set forth and claimed in said parent application, and having a turning cavity in said head.

In the prior art it has hitherto been thought necessary after a screw blank has been suitably headed in the header to point it to provide a conically pointed shank portion by removing metal,

which feature could not be conveniently done in the header to provide the sharp conically pointed of my former application for patent for Screws shank portion formerly thought desirable. Inasmuch as for the purposes of employing my improved method a shank pointed portion having a sharp tip is not necessary, I have discovered that blunt pointed shank portions of a desired predetermined shape having the required excess of metal thereon to provide the threads extending a single operation as the head itself is being formed on the screw blank, and I am, therefore,

able by a single heading operation to provide both the head and a suitably pointed shank portion so that after a single punching operation a screw blank may be provided immediately ready for rolling into my improved screw.

A further object of my invention is to provide blanks shaped as aforesaid in the heading apparatus by the heading dies so that double threads may be readily rolled on the shank and point thereof.

I have also discovered that in the same heading operation I am also able to cold forge one end of a length of metal stock in the header to form the head portion of the same whether it be a fiat head, round head, oval head or binding head around a non-circular projection capable of forming a turning cavity in said head While in the same operation extruding the other end of the piece of stock to form said pointed portion having a greater excess of-metal thereon than required for a conical point-for rolling therefrom the double threads in the manner hitherto described. While any suitable type of non-circular cavity may be provided with the metal cold forged around any type of non-circular projection, I preferably employ a truncated diamond shaped projection to form a truncated diamond head turning cavity in the manner described in my application for Screw, Ser. No. 398,543, aforesaid.

These and such other objects of my invention as may hereinafter appear will be best understood from a description of the embodiments thereof shown in the accompanying drawings.

Fig. 1 is a sectional view through a female heading die of a suitable header containing a length of cylindrical stock to be made into the finished screw.

Fig. 2 is a sectional view through the female die shown in Fig. l and the multiple punch holder of a suitable header showing the coning punch in the simultaneous function of initiating the shape of the head and forming the opposite end of the piece of stock into a shank end having an irregularly shaped pointed portion having an excess of metal thereon greater than required for a comically pointed portion in accordance with my invention, thus pointing the shank to provide the desired irregular shape with the initial coning punch stroke of the header.

Fig. 3 is a sectional view identical with Fig. 2, showing the finishing punch stroke in the act of completing the formation of the head on the screw blank shank to form an oval headed screw blank.

Fig. 4 i a side elevation and Fig. 5 is a reverse plan view of one embodiment of screw blank after it has been formed in the header with an excess of metal on the pointed portion of the shank greater than i required for a conically pointed portion.

Fig. 6 is a side elevation and Fig. '7 is a reverse plan view of another embodiment of screw blank constructed in accordance with my invention having a domed tip of relatively large radius and being particularly suited to roll a cutting blade.

Fig. 8 is a side elevation and Fig. 9 is a reverse plan view of a still further embodiment of screw blank constructed in accordance with my invention, employing a conically pointed portion with slightly domed walls to provide the exces metal for the threads.

Fig. 10 is a side elevation and. Fig. 11 is a reverse plan view of a still further embodiment of screw blank constructed in accordance with my invention, having a frusto-conical pointed portion.

Fig. 12 is a sectional view similar to Fig. 2 showing the first step in the method of making a screw having a fiat head and the typical point of my invention, being similar to the first coning stroke of the heading apparatus shown in Fig. 2 for making a screw having an oval head.

Fig. 13 is a sectional view identical to Fig. 12 and similar to Fig. 3 showing the finishing punch stroke in the act of completing the formation of a fiat head in the screw blank shank with contacting faces of the finishing punch and die modified from the shape shown in Fig. 3 for this purpose.

Fig. 14 is a sectional view similar to Fig. 2 showing the first step in the method of making a screw having a round head and typical point, being substantially identical to the first coning stroke shown in Fig. 2 for making a screw having an oval head.

Fig. 15-is a sectional view identical to Fig. l and similar to Fig. 3 showing the finishing punch stroke in the act of completing the formation of the round head in the screw blank shank with contacting faces of the finishing punch and die modified from the shape shown in Fig. 3 for this purpose.

Fig. 16 is a sectional view of the stationary and movable dies in the act of rolling double threads on the screw blanks shown in Figs. 4-11.

Fig. 17 is a plan view of the die, and Fig. 18 is a plan view of the coning punch employed on the first coning stroke of the header to produce an oval headed screw of the type as shown in Figs. 21 and 22 in the heading apparatus as indicated in Fig. 2.

Fig. 19 is a plan view of the same die and Fig. 20 is a plan view of the finishing punch employed on the second finishing stroke of the header to produce an oval headed screw of the type shown in Figs. 21 and 22 in the heading apparatus as indicated in Fig. 3.

Fig. 21 is a side elevation and Fig. 22 is a plan view of a screw constructed in accordance with my invention having an oval head produced in the manner indicated in Figs. l-3.

Fig. 23 is a side elevation and Fig. 24"is a plan view of a screw constructed in accordance with my invention having a flat head produced in the manner indicated in Figs. 12 and 13.

Fig. 25 is a side elevation and Fig. 26 is a plan view of a screw constructed in accordance with my invention having a round head produced in the manner indicated in Figs. 14 and 15.

Fig. 27 is a side elevation and Fig. 28'is a plan view of a screw constructed in accordance with my invention having a binding head.

In the drawings, wherein like characters of reference generally indicate like parts throughout, 10 generally indicates a screw constructed in accordance with my invention.

As stated hitherto, it has been customary in the prior art to form pointed portions I28 of conical shape on the screw blanks 98 prior to rolling threads thereon. Great difliculty has been experienced in finding enough metal from such a conically pointed portion of the shank to form threads extending to or beyond the tip 16 of said comically pointed portion 15. This is particularly true where it is desired to roll double threads as they require considerablemetal.

My invention is adapted for use in rolling double threaded screws. My improved screw has the usual head 12, the shank 14 and the tapered pointed portion 15 of the shank terminating in the tip I6 and the continuous double threads 18 extending spirally downwardly through at least a portion of said shank I4 and said tapered pointed portion 15. Each thread 18 tapers outwardly to a sharp continuous spiral cutting razorlike edge 19 of substantially even height throughout the shank I4 and of progressively decreasing height in said tapered portion of the shank I4. If desired, the threads may taper downwardly at the upper ends thereof to the shank as at 80, thus being of progressively increasing height at the upper ends thereof, it being obvious that with this structure the shank 14 itself is slightly ta: pered in reverse direction as at 8| at this portion as less metal is extruded therefrom to form said threads. Employing my invention, the lower ends of said double threads form sharp incising means 82 projecting substantially axially downwardly of the pointed portion 1 5 of said shankin all embodiments of my invention.

My invention also includes a novel method of rolling double threaded screws which comprises pressure shaping or otherwise forming a length of stock 91 into a blank 98 having a head 12 on one end thereof and an irregular shaped pointed portion 99 having an excess of metal I90 thereon greater than required for a conically pointed portion I28, as shown in dotted lines in Figs. 4, 6, 8 and 10, on the opposite end thereof, and rolling continuous double threads 18 on the other end of the shank I4 adjacent to and on said pointed portion 99 and displacing said excess metal I on said pointed portion 99 to form it into the pointed portion I of the finished screw and to form continued threads 94 on said pointed portion 15, each terminating in sharp incising'means 82 projecting substantially axiallydownwardly of said pointed portion I5. I have found that while the formation of a true conically pointed portion I28 has been difiicult in the header, my improved pointed portion 99 is of such irregularshape that it may be readily formed in the header, preferably in the initial blow for roughening the head.

s The threads 18 may be rolled on the. screw blanks 98 in any suitable manner, such as in the manner shown ,in application Ser. No. 290,621, aforesaid, by true radial extrusion. Commercial results, however, may be obtained by rolling them in a standard type of dies forrolling machine reproduce the same type of screw, the amount of excess metal I00 depending, therefore, upon the desired shape of the incising means 82 desired in the finished screw, the incising means 82 of the desired predetermined shape being produced by variations in the amount of excess metal I90 and the type of and the amount of rolling employed. While I preferably roll said threads 94 down to an incising point or blade, a novel desirable type of screw may be produced if the threads are not rolled down to a single point or a single blade,

but left terminating in spaced incising means, on each side of the pointed portion I5 of the screw,

in which the screw may initially bite into the have shown in Figs. 1-3 diagrammatic portions "of screw threads, such as shown in the accom-panying drawings, modified to roll double threads by.

providing groove means I04 in said dies" having an included angle of 45-55 preferably of substantially 45" and'a pitch angle of 8-22. With this typeof rolling dies the excess metal I00.is forced axially downwardly as well as radially outwardly over the sides of the pointed portion 99 of the shank and even beyond the tip 16 of said simultaneously formed pointed portion 15, if desired, to form the threads 94 of decreasing height terminating in the sharp incising .means 82, whether merged to form a single point or a single blade, or left spaced to provide ,spaced means comprising spaced'points or spaced blades.

It is thus obvious that the amount of excess metal I09 provided may be varied, as well as the method and amount of rolling varied to produce these different results. Thus, where a quantity of metal is required as in a blade, more excess metal may be provided in the pointed portion 99 of the blank 98, as in the embodiment shown in Figs. 6 and 7, having a dome shaped-pointed portion 99' of large radius. When the desired type of screw has been decided upon, the amount ofe'xcess metal I00 provided at the pointed portion 99 of the blank 98 and the nature and the amount of rolling may be predetermined so as to continuously bore II2 for receiving the stock 91.

a heading machine. For this purpose thefemale heading die IIO may be provided with the usual Said bore H2 is provided with the inwardly tapering portion I I4 near the inner end thereof and a portion II6 of smaller bore or diameter beyond said .tapered portion H4. The header may be provided with the usualv multiple punch holder 8 having the usual coning punch I20 for initiating the shape of the head I2 and the finishing punch I22. I have shown in Fig. 2 the stock 91 being formed with-the excess of metal I09 on the pointed portion 99 greater than required for the conically pointed portion I5 of the screw shankmade by jamming the piece of stock 91 inwardly within said bore II2 through said tapered portion II4 so that the end 99 thereof terminates within the portion IIB of smaller diameter to provide the screw blank 98 shown in Figs. 4 and 5 having a pointed portion 99 comprising a'tapered portion I24 and a portion of smaller diameter I26 I below said tapered portion, said tapered portion I24 and portion I26 of smaller diameter forming the pointed, end portion 99 of the screw blank 98, providing the excess of metal I greater than required for a conically pointed portion I28. Thus the screw blanks 98 are shaped for rolling with the desired excess metal I00 thereon in the roughening or coning stroke of the header, it being obvious that the completion of the head into the desired shape I2 is accomplished by the second finishing punch stroke of the finishing punch I22, as shown in Fig. 3. I have shown in Figs. 4ll various species of screw blanks having the pointed ends 99 having the excess of metal I90 thereon, the embodiment 99 shown in Figs. 4 and 5 having the tapered portion I24 and the cylindrical portion ,I'26 of smaller diameter as hitherto described in excess of the conically pointed portion I28. I have shown in Fig. 6 a screw blank 98' having the .excess metal I00 thereon and having a dome shaped end 99' with a dome of relatively large radius to provide considerable excess metal I00 for rolling a screw having one or more blades or points in the manner to be described. I have shown in Figs.'8 and 9 a screw blank 98" having a conical point 99" with the excess metal I00 being provided by doming the side walls of the conical point I28. I have shown in Figs. 19 and 11 a suitable blank 98" formed with a frustoconical point 99' to provide another manner of providing the excess metal I00 in excess of a conical point I28. Forycheapness and economy of manufacture, however, due to the peculiar rough shaping required in the pointed portion of the screw blanks, these may be readily roughed out simultaneously with the initial heading step by the application of the same force, the initial punching blow of a standard heading machine.

As stated hitherto, my invention includes the proper combination of dies in a standard type of heading apparatus to produce a screw blank suitable for rolling double threads having a point forming portion having an excess of metal thereon greater than required for a conical point and simultaneously with the formation of said point in the heading machine having contacting faces of the punch and die shaped to shape a head I2 of the desired shape on said screw blank.

I have shown in Figs. 21-28 typical types of heads which may be produced on screws constructed in accordance with my invention, Figs. 21-22 showing a screw having an oval head, Figs.

23-24 showing a screw having a fiat head, Figs. I

25-26 showing a screw having a round head and Figs.'27-28 showing a screw having a binding head..

The point forming portion 99 of the screw blank may be shaped in any suitable manner. For this purpose, as previously described, the inner end of the bore H2 in the heading die H may be provided with a point forming portion H3 in the inner end thereof shaped to provide an excess of metal on said point greater than required for a conical point, in the specific embodiment shown to produce the screw blank shown in Figs. 4 and 5, with an inwardly tapered portion H4 in the inner end thereof and hence the outer end of the screw blank shank and a shorter portion of smaller bore I I6 beyond said inwardly tapered portion H4. the screw blanks shown in Figs. 6-11 or other shapes, it is obvious that the inner point forming portion H3 of said bore H2 may be correspondingly shaped to produce said respective shapes on the coning stroke of the header.

It is obvious that typical types of screw heads may be made by suitably varying the contacting surfaces of the die and the finishing punch in the standard manner known in the art. Thus, if it be desired to make an oval headed screw. I shape the punch and dies in the manner indicated in Figs. 17-20 and as shown in Figs. 2 and 3. For this purpose the surface "0 of the heading die I I0 around the bore I I2 is provided with an outwardly flaring screw blank head forming conical recess I60. The coning punch I20 is provided with a centering cavity I62 therein, in the embodiment shown, comprising a short frusto-conical bore, the purpose of the centering cavity I62 being to center the mass of metal on the end of the piece of stock 91 no matter in what irregular manner it may be cut so that it may be evenly distributed about its center or axis for the finishing stroke of the header, so when the coning punch I20 and die H0 are relatively brought together on the first stroke of the header the coning punch I20 pushes metal from the outer end of the piece of stock 91 into said coning recess I 60 and within said centering cavity I62 to initiate the formation of the screw blank head I2 and-the piece of stock inwardly through said shaped point forming portion H3 to provide a blank having a shank terminating in a point having an excess of metal thereon greater than required for a conical point, in the specific embodiments shown in Figs. 1-3 through said tapered portion HQ and within said portion H6 of smaller bore to provide a blank 98 having a If, however, it be desired to produce shank terminating in a point 99 having a cooperating tapered portion I24 and a short portion I26 of reduced diameter beyond it.

The finishing punch I22 movable by the header into alignment with said die I III for the finishing stroke of the header is provided with an end I64 shaped to form the head, in the embodiment shown in Figs. 1-3 with the oval end surface I14, whereby when the finishing punch I22 and die I I0 are relatively brought together on the finishing stroke of the header, the metal at the outer end of the piece of stock 91 is flattened into the die recess I60 to form the screw blank head I2 to provide a screw blank suitable for rolling double threads thereon having an oval head I2 having an oval outer wall I66 and a conical wall I68 extending to the screw blank shank I4 and a point 99 having an excess of metal thereon greater than required for a conical point.

As stated hitherto, various standard types of heads may be made in the manner known in the art by varying the shape of the contacting surfaces I70, I12 and I14 of the die H0, the coning punch I20 and the finishing punch I22 respectively. Thus to produce the round headed screw shown in Figs. 25 and 26, the surface I10 of the die is left flat and the shape of the centering cavity I62 in the end. I63 of the coning punch correspondingly enlarged to have all of the excess of metal exterior of the face of the die and within the end of the coning punch after the coning stroke of the header as shown in Fig. 14. The surface I14 of the end I64 of the finishing punch is provided with a central concavity I78 to provide the round head I2 as shown in the embodiment shown in Figs. 25 and 26 on the finishing stroke of the header as shown in Fig. 15. To make the fiat head 12" as shown in the embodiments shown in Figs. 23 and 24, modifications of the respective cavities I80 and I62 in the die and coning punch respectively are provided, the die being provided with the cavity I60 similar to that employed in making an oval headed screw and the coning punch being provided with a centering cavity I62 similar to that employed in making an oval head I2 as shown in Fig. 14. In this instance, however, the finishing punch I22" i provided with a flat contacting surface IN to provide the flat surface I16 on th flat head 12" as shown in Fig. 13. In making a screw with a flat head it is therefore obvious that a cavity I60 on the die H0 and a hat surface I14 on the finishing punch I22 are provided. The binding screw head 12" is made in imilar fashion as the round screw head I2,

the cavity in the finishing punch being suitably modified from the 'cavity H8 in the finishing punch to form a cylindrical head 12' rather than a round head I2.

As stated hitherto, so far as I am aware no one has realized that its is possible to supplementally form a turning cavity in the head at the same time one end of alength of stock is forged to form the screw blank head, by forging the metal on the screw head end of a piece of stock around a non-circular projection to provide a turning cavity in said screw head blank as the head is being formed and in the same operation extrude the other end of the piece of stock to form a pointed portion having an excess of metal thereon greater than required for a conical point. I

thus effectively head a screw, provide it with a turning cavity and form a suitable point for rolling double threads thereon in a single operation in a standard type of heading machine. For

this purpose I modify the end I64 of the finishin punch I22, said finishing punch being provided with the end surface I14 complementary to the desired surface I66 on the head 12 of the threaded member and having a non-circular projection I82 projecting. therefrom for the purpose of forming the turning cavity I80 in the screw head on said finishing stroke of the header. In the preferred embodiment shown said projection I82 preferably comprises a truncated diamond shaped projection centrally of said surface I14 complementary to the desired shape of the turning cavity I80 in the screw head blank. Also, if it be desired to form a partially spherical guide recess I84 in said head, a supplemental projection I90 may be provided whatever shape the turning cavity may have. Thus, in my preferred embodiment the finishing punch is provided with the diamond shaped projection I82 truncated as at I86 at each acute angle end thereof and provided with a hexagonal tip I88 and having straight side walls I92 and end walls I94 tapering obliquely inwardly and outwardly to said tip end I88 and with the partially spherical guide projection I90 thereon concentric with and of much less height than said truncated diamond shaped projection I82 and of much less diameter than the length of said projection and of greater diameter than the width of said projection. It is thus obvious that when said finishing punch I22 is brought into 1 position against said heading die IIO the respective projections I82 and I90 will form respective recesses I80 and I84 of complementary shape in the screw head I2 in the same operation as said screw head is shaped in the header. It is obvious that the exact shape of the punch may vary in accordance with desired changes in the recess I80 and that the shape of both coning and finishing punches and header die may be varied to provide the different shaped heads aforesaid, each provided with a suitable non-circular turning cavity I80.

I have shown in Fig. 16 suitable. types of dies generally similar to the standard dies for rolling single threads on machine or other screws, modified to roll the double threads I8 extending at least to the extreme tip 16 of the pointed portion of the shank I4 in accordance with my invention. These dies comprise the usual stationary die I and the die I32 movable relat vely thereto in a standard type of screw rolling machine. a suitable type being shown in Arenz Patent #1,912,879. Each die I30 and I32 has a face I34 comprising a continuous cavity I36 having a cooperating inwardly tapered portion I38 adjacent the upper end thereof and a pointed portion forming portion I40 tapering arcuately outwardly to the surface of said die beyond said cavity I36. Each face I 34 is provided with continuous thread forming groove means I04, each terminating in a sharp intaglio ridge I06, extending obliquely inwardly thereof at spaced distances throughout the height of said face throughout said tapered portion I38, the shank forming portion I46 and said pointed portion forming portion I40. Each groove means I04 is of progressively increasing depth in said tapered portion I38, of substantially even depth in said shank forming portion I46 and of progressively decreasing depth in said pointed portion forming portion I40. A

In order to provide the double threads 18, the groove means I04 has an included angle of preferably of substantially 45 and a pitch angle of substantially 822. The tapered portion I38 in each respective die may be provided in the manner shown and described in my application Ser. No. 290,621, aforesaid, the tapered portion I38 in this instance, however, being for a different purpose than shown in said application and of a much less degree.

It is obvious that any of these novel types of screws may be made by my improved method, the shape and nature of the incising means projecting axially from the lower end of the pointed portion 15 of the screw depending on the amount of excess metal I00 provided in the pointed portion 99 of the screw blank 98 and the method of and amount of rolling, it being obvious that once these factors have been determined, identical screws may be continuously produced by my method having identical predetermined incising means. It is apparent that I have provided a novel method of manufacturing rolled screws including specifically a novel method of making screw blanks for use in the manufacture of double threaded screws and a novel combination of dies for this purpose as well as novel types of blanks having heads provided with non-circular turning cavities preferably of the types shown in my copending application for Screw, Ser. No. 398,543, aforesaid, and having 'the characteristic advantages shown therein.

It is understood that my invention is not limited to the specific embodiments shown or methods described and that various deviations may be made therefrom without departing from the spirit and scope of the appended claims.

What I claim is:

1. The steps in the method of manufacturing a rolled double threaded screw, which comprise by successive blows on the outer end of a piece of metal stock pushing said piece of metal stock within a cavity shaped to provide a screw blank having a shank terminating in a reduced pointed portion having an excess of metal greater than required for a conical point and pushing and cold forging metal from the outer end of the piece of stock beyond said cavity into a screw head F and around a non-circular projection capable of forming a turning cavity in said head.

2. The steps in the method of manufacturing a rolled double threaded screw, which comprise by a blow on the outer end of a piece of metal stock pushing a piece of metal. stock within a cavity shaped to provide a screw blank having a shank terminating in a reduced point having an excess .of metal greater than required for a conical point and simultaneously centering a mass of metal on theouter end of said blank beyond said cavity to initiate the formation of the screw head and by another blow on the outer end of said piece of metal stock again pushing said piece of stock within said cavity and simultaneously cold forging said centered mass of metal into a screw head and around a non-circular projection to form a turning cavity in said head.

3. In a. header, in combination, a heading die having a bore for receiving a length of metal stock to form a screw blank, said bore having a reduced point forming portion at the inner end thereof shaped to provide an excess of metal on the screw blank point greater than required for a conical point, a coning punch cooperating therewith having a centering cavity therein whereby when the coning punch and die are relatively brought together on the first stroke of the header and the piece of stock inwardly within said shaped reduced point forming portion to provide a screw blank having a shank terminating in a reduced point having an excess of metal greater than required for a conical point and a finishing punch successively movable into alignment with said die having an end shaped to form the head and a non-circular projection centrally thereof whereby when the finishing punch and die are relatively brought together on the finishing stroke of the header, the metal at the outer end of the stock is cold forged around said central projection to form a screw blank head having a turning cavity to provide a screw blank suitable for rollin double threads thereon.

4. In a header, in combination, a heading die having a bore for receiving a length of metal stock to form a screw blank, said bore having a reduced point'forming portion at the inner end thereof shaped to provide an excess of metal on the screw blank point greater than required for a conical point, a coning punch cooperating therewith having a centering cavity therein whereby when the coning punch and die are relatively brought together on the first stroke of the header the coning punch pushes metal from the outer end of the piece of stock into the centering cavity to initiate the formation of the screw blank head and the piece of stock inwardly within said shaped reduced point forming a portion to provide a screw blank having a shank terminating in a reduced point having an excess of metal greater than required for a conical point and a finishing punch successively movable into alignment with said die having an end shaped to form the head and a central truncated diamond shaped projection whereby when the finishing punch and die are relatively brought together on the finishing stroke of the header, the metal at the outer end of the stock is cold forged around said central projection to form a screw blank head having a truncated diamond shaped turning cavity to provide a screw blank suitable for rollin double threads thereon.

5. In a header, in combination, a heading die having a bore for receiving a length of metal stock to form a screw blank, said bore having a reduced point forming portion at the inner end thereof shaped to provide an excess of metal on the screw blank point greater than required for a conical point, a coning punch cooperating therewith having a centering cavity therein whereby when the coning punch and die are relatively brought together on the first stroke of the header the coning punch pushes metal from the outer end of the piece of stock into the centering cavity to initiate the formation of the screw blank head and the piece of stock inwardl within said shaped reduced point forming a portion to provide a screw blank having a shank terminating in a reduced point having an excess of metal greater than required for a conical point,

i and a finishing punch successively movable into alignment with said die, said finishing punch having an end shaped to form the head and having a surface complementary to the desired surface on the head of the threaded member having a diamond shaped projection thereon centrally thereof truncated at each acute angle end thereof having a hexagonal tip, straight side walls and end walls tapering obliquely inwardly and downwardly to said tip and a partially spherical guide projection thereon concentric with and of much less height than said diamond shaped projection and of much less diameter than the length of said projection and of greater diameter than the width of said projection whereby when the finishing punch and die are relatively brought together on the finishing stroke of the header, the

metal at the outer end of the stock is cold forged around said central projection to form a screw blank head having a complementary turning cavity to provide a screw blank suitable for rolling double threads thereon.

6. In a header, in combination, a heading die having a bore for receiving a length of metal stock to form a screw blank, said bore having a reduced point forming portion at the inner end thereof shaped to provide an excess of metal on the screw blank point greater than required for a conical point, a coning punch cooperating therewith having a centering cavity therein whereby when the coning punch and die are relatively brought together on the first stroke of the header the coning punch pushes metal from the outer end or the piece of stock into the centering cavity to initiate the formation of the screw blank head and the piece of stock inwardly within said shaped reduced point forming a portion to provide a screw blank having a shank terminating in a reduced point having an excess of metal greater than required for a conical point and a finishing punch successively movable into alignment with said die said finishing punch having an end shaped to form the head and having a surface complementary to the desired surface on the head of the threaded member having a diamond shaped projection thereon centrally thereof truncated at each acute angle end thereof and a partially spherical guide projection thereon concentric with and of much less height than said diamond shaped projection and of much less diameter than the length of said projection and of greater diameter than the width of said projection whereby when the finishing punch and die are relatively brought together on the finishing stroke of the header, the metal at the outer end of the stock is cold forged around said central projection to form a screw blank head having a complementary turning cavity to provide a screw blank suitable for rolling double threads thereon.

7. The steps in the method of manufacturing a rolled double threaded screw, which comprise in the same cycle of operations extruding one end of a length of stock to form a reduced screw shank pointed portion having a greater excess of metal thereon than required for a conical point and cold forging the other end of said length of stock to form the head portion of the screw blank around a non-circular projection to form a complementary turning cavity in said head.

WILLIAM A. DE VELLIER.

CERTIFICATE 0 CORRECTION. Patent No. 2,575,9h8. April 17, 191 WILLIAM A. DE VELLIER.

It is hereby certified that error appears in the printed specification of the above numbered patent requiring correction as follows: Page 6, first column, line 30, claim 1;, line 59, claim 5, and second column, line 32,01aim 6, after "forming" strike. out "a"; and that the said Letters Patent should be read with this correction therein that the .same may conform to the record of -the cese in the Petent Office.

Signed and sealed this 16th day of October, A. D. 1915.

4 Leslie Frazer (Seal)- FiratAssistant Commissioner of Patents. 

